Guannan Wang
About Guannan Wang
Guannan Wang is a Senior Aeroacoustics Engineer currently employed at Exa Corporation and GE Renewable Energy, where he has worked since 2013 and 2017, respectively. He holds a Master's degree and a Ph.D. in Mechanical and Aerospace Engineering from Syracuse University.
Work at Exa Corporation
Guannan Wang has been employed at Exa Corporation as a Senior Aeroacoustics Engineer since 2013. In this role, Wang focuses on the analysis and simulation of aerodynamic noise, contributing to advancements in aeroacoustic modeling and solutions. The position involves applying engineering principles to improve the design and performance of various systems, particularly in the context of wind energy applications.
Current Role at GE Renewable Energy
Since 2017, Guannan Wang has worked at GE Renewable Energy as a Wind Turbine Engineer. In this capacity, Wang is responsible for engineering tasks related to the design and optimization of wind turbine systems. This role emphasizes the importance of integrating aerodynamics and acoustics to enhance turbine efficiency and performance in renewable energy generation.
Previous Experience at Syracuse University
Guannan Wang worked at Syracuse University from 2008 to 2013, where he held dual roles as a Research Assistant and Teaching Assistant. During this period, Wang contributed to various research projects while also supporting the educational needs of undergraduate students. This experience provided a foundation in both academic research and instructional methodologies in the field of Mechanical and Aerospace Engineering.
Education and Academic Background
Guannan Wang earned a Master's degree in Mechanical and Aerospace Engineering from Syracuse University, completing the program from 2008 to 2010. Following this, he pursued a Doctor of Philosophy (Ph.D.) in the same field, which he completed from 2010 to 2013. This academic background has equipped Wang with a strong theoretical and practical understanding of engineering principles, particularly in aerodynamics and acoustics.